•Nature of ResistanceTemperature-Resistance RelationshipOhm's Law, Energy and PowerKirchhoff's Law••Maxwell's Mesh Analysis1. The steel of the third rail of a railway system has a resistivity of 21.4 μ-cm. If its cross-sectional areais 8.2 in², calculate the resistance per mile of rail, neglecting the effect of joints between sections. (1point)2. An incandescent lamp has a tungsten filament whose resistance is 96 at its operating temperatureof 2900°C. Calculate the filament resistance when the lamp is disconnected from the electric source,under which condition its temperature is 24°C. (Use do = 0.0045 02/°C for tungsten) (1 point)3. For the circuit shown, find the following:50 V60210 V702a. the value of resistor R. (1 point)b. the equivalent resistance with respect to the 50-Vsource. (1 point)4. For the circuit shown, determine all the currents in each branch using Kirchhoff's Laws. (3 points)A5V 2В-нийC46 VTwwFE5. Use Maxwell's Mesh to find I, and VAB for the circuit shown. (3 points)10 V1ΩA20www1x21x50 VB

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Answered: • Nature of Resistance…

Inquiry into Physics

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ISBN:9781337515863

Author:Ostdiek

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Chapter7: Electricity

Section: Chapter Questions

Problem 4C: Using your understanding of the nature of internal energy and temperature, explain why we might...

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How does the resistance for copper and for silicon change with temperature? Why are the behaviors of these two materials different?
When a straight wire is heated, its resistance changes according to the equation R = R0 [1 + (T T0)] (Eq. 17.7), where is the temperature coefficient of resistivity. (a) Show that a more precise result, which includes the length and area of a wire change when it is heated, is R=R0[1+(TT0)][1+(TT0)][1+2(TT0)] where is the coefficient of linear expansion. (See Topic 10.) (b) Compare the two results for a 2.00-m-long copper wire of radius 0.100 mm, starting at 20.0C and heated to 100.0C.
Nichrome wire is used in some radiative heaters. (a) Find the resistance needed if the average power output is to be 1.00 kW utilizing 120-V AC. (b) What length of Nichrome wire, having a cross-sectional area of 5.00mm2, is needed if the operating temperature is 500°C ? (c) What power will it draw when first switched on?
Would your headlights dim when you start your car's engine if the wires in your automobile were superconductors? (Do not neglect the battery’s internal resistance.) Explain.
If two different wires having identical cross-sectional areas carry the same current, will the drift velocity be higher or lower in the better conductor? Explain in terms of the equation vd=1nqA by considering how the density of charge carriers n srelates to whether or not a material is a good conductor.
Integrated Concepts A 12.0-V emf automobile battery has a terminal voltage of 16.0 V when being charged by a current of 10.0 A. (a) What is the battery’s internal resistance? (b) What power is dissipated inside the battery? (c) At what rate (in °C/min ) will its temperature increase if its mass is 20.0 kg and it has a specific heat of 0.300 kcal/kg. °C, assuming no heat escapes?
What would be the maximum cost of a CFL such that the total cost (investment plus operating) would be the same for both CFL and incandescent 60-W bulbs? Assume the cost of the incandescent bulb is 25 cents and that electricity costs 10 cents/kWh, Calculate the cost for 1000 hours, as in the cost effectiveness of CFL example.
(a) Digital medical thermometers determine temperature by measuring the resistance of a semiconductor device called a thermistor (which has a= - 0.0600/°C ) when it is at the same temperature as the patient. What is a patient's temperature if the thermistor’s resistance at that temperature is 82.0% of its value at 37.0°C (normal body temperature)? (b) The negative value for a may not be maintained for very low temperatures. Discuss why and whether this is the case here. (Hint: Resistance can’t become negative.)
An electronic apparatus may have large capacitors at high voltage in the power supply section, presenting a shock hazard even when the apparatus is switched off. A “bleeder resistor" is therefore placed across such a capacitor, as shown schematically in Figure 21.50, to bleed the charge from it after the apparatus is off. Why must the bleeder resistance be much greater than the effective resistance of the rest of the circuit? How does this affect the time constant for discharging the capacitor?
Integrated Concepts (a) An immersion heater utilizing 120 V can raise the temperature of a 1.00 102 -g aluminum cup containing 350 g of water from 20.0°C to 95.0°C in 2.00 min. Find its resistance, assuming it is constant during the process. (b) A lower resistance would shorten the heating time. Discuss the practical limits to speeding the heating by lowering the resistance.
The IR drop across a resistor means that there is a change in potential or voltage across the resistor. Is there any change in current as it passes through a resistor? Explain.
If the drift velocity in a conductor is so small, then why does an auto battery influence the starter as soon as you turn the ignition switch?

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